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    • 1. 发明申请
    • CHARGING SYSTEM FOR AN IMPLANTABLE MEDICAL DEVICE EMPLOYING MAGNETIC AND ELECTRIC FIELDS
    • 使用磁场和电场的可植入医疗装置的充电系统
    • WO2012003131A4
    • 2012-04-12
    • PCT/US2011041606
    • 2011-06-23
    • BOSTON SCIENT NEUROMODULATIONCHEN JOEYOZAWA ROBERTHYUN JOONHODRONOV VASILY
    • CHEN JOEYOZAWA ROBERTHYUN JOONHODRONOV VASILY
    • A61N1/378A61N1/372
    • A61N1/37223A61N1/3787H01Q1/273H01Q9/42
    • A base station for passively recharging a battery in an implant without patient involvement is disclosed. The base station can be hand held or may comprise equipment configured to be placed at a fixed location, such as under a bed, on or next to a wall, etc. The base station can generate electric and magnetic fields (E- field and B-field) that couple with an antenna and a receiving coil within the implant to generate a charging current for charging the implant's battery. No handling or manipulation on part of the patient is necessary; the implant battery is passively charged whenever the patient is within range of either the magnetic or electric charging fields generated by base station. Charging using the B-field occurs when the IPG is at a relatively short distance from the base station, while charging using the E-field occurs at longer distances. Back telemetry from the implant can inform the base station whether B-field or E-field charging is indicated, and is preferred if possible for its ability to transfer higher amounts of power to the implant.
    • 公开了用于被动地给植入物中的电池充电而没有患者参与的基站。 基站可以是手持式的,或者可以包括被配置为放置在固定位置处的设备,例如在床下面,墙上或旁边等。基站可以产生电场和磁场(E场和B场 场),其与植入物内的天线和接收线圈耦合以生成用于给植入物的电池充电的充电电流。 部分患者不需要操作或操作; 无论何时患者处于由基站产生的磁场或电荷场的范围内,植入物电池都被动充电。 当IPG距离基站相对较短的距离时,使用B场进行充电,而使用电场进行充电的距离较远。 植入物的背部遥测可以通知基站是否显示B场或电场充电,并且如果可能的话,由于其向植入物传送更大量的功率的能力,所以是优选的。
    • 2. 发明申请
    • IMPLANTABLE MEDICAL DEVICE AND CHARGING SYSTEM EMPLOYING ELECTRIC FIELDS
    • 可植入医疗装置和使用电场的充电系统
    • WO2012003140A3
    • 2012-03-29
    • PCT/US2011041773
    • 2011-06-24
    • BOSTON SCIENT NEUROMODULATIONCHEN JOEYOZAWA ROBERTHYUN JOONHODRONOV VASILY
    • CHEN JOEYOZAWA ROBERTHYUN JOONHODRONOV VASILY
    • A61N1/378A61N1/372H01Q1/00
    • A61N1/37223A61N1/3787H01Q1/273H01Q9/42
    • An implantable medical device and external base station system are disclosed. The external base station can provide a passive electric field to power the implant, or to charge its battery. The base station may also power or charge using magnetic fields under certain circumstances. The Implantable medical device may comprise an implantable neurostimulator having a number of electrode leads extending from its body. One or more of the electrode leads can comprise the antenna for receiving the electric field from the base station, and resonance in that antenna can be rectified to provide the power for recharging the battery. Although the E-field provided by the base station does not provide as much power for recharging as does other traditional charging techniques (such as those using magnetic fields), it can occur passively and over longer distances to allow the patent's implant to be recharged when in relative proximity to the base station.
    • 公开了一种可植入医疗设备和外部基站系统。 外部基站可以提供无源电场来为植入物供电或为其电池充电。 在某些情况下,基站也可以使用磁场进行供电或充电。 可植入医疗装置可以包括具有从其主体延伸的多个电极引线的可植入神经刺激器。 一个或多个电极引线可以包括用于接收来自基站的电场的天线,并且可以对该天线中的谐振进行整流以提供用于对电池进行再充电的电力。 尽管由基站提供的电场与其他传统充电技术(例如使用磁场的那些技术)不能提供充足的充电电力,但其可以被动地发生并且在更长的距离上发生,以允许专利的植入物在充电时被充电 相对靠近基站。
    • 3. 发明申请
    • CHARGING SYSTEM FOR AN IMPLANTABLE MEDICAL DEVICE EMPLOYING MAGNETIC AND ELECTRIC FIELDS
    • 用于使用磁场和电场的可植入医疗器械的充电系统
    • WO2012003131A3
    • 2012-02-23
    • PCT/US2011041606
    • 2011-06-23
    • BOSTON SCIENT NEUROMODULATIONCHEN JOEYOZAWA ROBERTHYUN JOONHODRONOV VASILY
    • CHEN JOEYOZAWA ROBERTHYUN JOONHODRONOV VASILY
    • A61N1/378A61N1/372
    • A61N1/37223A61N1/3787H01Q1/273H01Q9/42
    • A base station for passively recharging a battery in an implant without patient involvement is disclosed. The base station can be hand held or may comprise equipment configured to be placed at a fixed location, such as under a bed, on or next to a wall, etc. The base station can generate electric and magnetic fields (E- field and B-field) that couple with an antenna and a receiving coil within the implant to generate a charging current for charging the implant's battery. No handling or manipulation on part of the patient is necessary; the implant battery is passively charged whenever the patient is within range of either the magnetic or electric charging fields generated by base station. Charging using the B-field occurs when the IPG is at a relatively short distance from the base station, while charging using the E-field occurs at longer distances. Back telemetry from the implant can inform the base station whether B-field or E-field charging is indicated, and is preferred if possible for its ability to transfer higher amounts of power to the implant.
    • 公开了一种用于对植入物中的电池进行无源再充电的基站,无需患者参与。 基站可以是手持的,或者可以包括被配置为被放置在固定位置的设备,例如在床下面,在墙壁上或墙壁上等。基站可以产生电场和磁场(E-场和B 场),其与植入物内的天线和接收线圈耦合,以产生用于对植入物的电池充电的充电电流。 不需要对部分患者进行处理或手术; 每当患者处于由基站产生的磁性或电荷充电场的范围内时,植入物电池被动地充电。 当IPG距离基站相对较短的距离时,使用B场进行充电,而使用电场进行充电会发生较长的距离。 来自植入物的反向遥测可以通知基站是否指示B场或E场充电,并且如果可能的话将其更大量的功率传送给植入物是优选的。
    • 4. 发明申请
    • IMPLANTABLE MEDICAL DEVICE AND CHARGING SYSTEM EMPLOYING ELECTRIC FIELDS
    • 可植入医疗设备和充电电气系统的充电系统
    • WO2012003140A2
    • 2012-01-05
    • PCT/US2011/041773
    • 2011-06-24
    • BOSTON SCIENTIFIC NEUROMODULATION CORPORATIONCHEN, JoeyOZAWA, RobertHYUN, JoonhoDRONOV, Vasily
    • CHEN, JoeyOZAWA, RobertHYUN, JoonhoDRONOV, Vasily
    • A61N1/378
    • A61N1/37223A61N1/3787H01Q1/273H01Q9/42
    • An implantable medical device and external base station system are disclosed. The external base station can provide a passive electric field to power the implant, or to charge its battery. The base station may also power or charge using magnetic fields under certain circumstances. The Implantable medical device may comprise an implantable neurostimulator having a number of electrode leads extending from its body. One or more of the electrode leads can comprise the antenna for receiving the electric field from the base station, and resonance in that antenna can be rectified to provide the power for recharging the battery. Although the E-field provided by the base station does not provide as much power for recharging as does other traditional charging techniques (such as those using magnetic fields), it can occur passively and over longer distances to allow the patent's implant to be recharged when in relative proximity to the base station.
    • 公开了可植入医疗装置和外部基站系统。 外部基站可以提供无源电场来为植入物供电,或为其电池充电。 在某些情况下,基站也可以使用磁场进行供电或充电。 植入式医疗装置可以包括具有从其主体延伸的多个电极引线的可植入神经刺激器。 电极引线中的一个或多个可以包括用于从基站接收电场的天线,并且该天线中的谐振可被整流以提供用于为电池再充电的电力。 虽然由基站提供的电场不像其他传统的充电技术(例如使用磁场的那些)那样提供充电的功率,但它可以被动地和超过更长的距离发生,以允许专利的植入物被充电, 在相对靠近基站。
    • 5. 发明申请
    • CHARGING SYSTEM FOR AN IMPLANTABLE MEDICAL DEVICE EMPLOYING MAGNETIC AND ELECTRIC FIELDS
    • 使用磁场和电场的可植入医疗装置的充电系统
    • WO2012003131A2
    • 2012-01-05
    • PCT/US2011/041606
    • 2011-06-23
    • BOSTON SCIENTIFIC NEUROMODULATION CORPORATIONCHEN, JoeyOZAWA, RobertHYUN, JoonhoDRONOV, Vasily
    • CHEN, JoeyOZAWA, RobertHYUN, JoonhoDRONOV, Vasily
    • A61N1/378A61N1/372
    • A61N1/37223A61N1/3787H01Q1/273H01Q9/42
    • A base station for passively recharging a battery in an implant without patient involvement is disclosed. The base station can be hand held or may comprise equipment configured to be placed at a fixed location, such as under a bed, on or next to a wall, etc. The base station can generate electric and magnetic fields (E- field and B-field) that couple with an antenna and a receiving coil within the implant to generate a charging current for charging the implant's battery. No handling or manipulation on part of the patient is necessary; the implant battery is passively charged whenever the patient is within range of either the magnetic or electric charging fields generated by base station. Charging using the B-field occurs when the IPG is at a relatively short distance from the base station, while charging using the E-field occurs at longer distances. Back telemetry from the implant can inform the base station whether B-field or E-field charging is indicated, and is preferred if possible for its ability to transfer higher amounts of power to the implant.
    • 公开了一种用于在植入物中无源地给电池充电而无需患者参与的基站。 基站可以是手持式的,或者可以包括被配置为放置在固定位置处的设备,例如在床下面,墙上或旁边等。基站可以产生电场和磁场(E场和B场 场),其与植入物内的天线和接收线圈耦合以生成用于给植入物的电池充电的充电电流。 部分患者不需要操作或操作; 无论何时患者处于由基站产生的磁场或电荷场的范围内,植入物电池都被动充电。 当IPG距离基站相对较短的距离时,使用B场进行充电,而使用电场进行充电的距离较远。 来自种植体的背部遥测可以通知基站是否指示B场或电场充电,并且如果可能的话,由于其向植入物传递更大量的功率的能力是优选的。